DE566302C - Temperature relay - Google Patents

Description

Temperature relay The invention relates to a new application of substances, which at certain temperatures from a practically non-conductive go into a conductive state. For example, silver iodide has this property.

It was previously known of these substances that they were used in a particular one Temperature (response temperature) have a transition point. Below this At one point, they are very bad leaders. The conductivity increases at the response temperature suddenly to a relatively high value.

Because of these properties, such allotropes have hitherto been found Body used as a thermostat. One has the body up to through the current Heated to its conversion point and thereby obtained an overload relay that responds at a certain amperage. By changing the composition of the Body and through a certain preheating one has the energy to be generated by the current, affects the amount of heat required to reach the transition point. In order to different tripping currents result for the same material. Through admixtures the conductivity of metal continues to be below the transition point changes. However, due to all these measures, the transformation point itself could not be reached be relocated, d. H. can be achieved that the conversion at different temperature of the allotropic body itself occurs. But such an attitude is named then of importance when it comes to temperature relays, i.e. relays whose Response should only take place as a function of the temperature. In this Trap it would be very cumbersome and greatly affect accuracy if you wanted to influence the release temperature by preheating.

The invention is therefore based on the new knowledge that it is possible is to get the transition point at very different temperatures when the allotropic body is exposed to the influence of electrical voltages. To therefore to set the response temperature in a temperature relay, according to the invention the allotropic body is placed on an adjustable tension in order to through adjustment the voltage to change the temperature at which the body suddenly becomes conductive changes. The change-in voltage is expedient at the ends of one between two metal electrodes inserted allotropic body of any testalt achieved. The response temperature of one and the same body is around so lower the higher one chooses the applied voltage. As the upper limit of the response temperature the known transition point applies, at which a becoming conductive also occurs, when very low voltages are applied to the two electrodes. The lower one The limit depends not only on the tension but also on the dimensions of the body, especially on the length of the current path in this. An advantageous embodiment the invention therefore consists in choosing the dimensions in relation to the tension to vary the response temperature.

After it has become conductive, the substance under tension becomes a stream flowing through it.

It has been found expedient by changing this stream to regulate the time it takes the substance to get back into its insulating State (regeneration time). The higher the current, which the Substance flows through after becoming conductive, the longer the regeneration time. Furthermore, according to the invention, the regeneration time can be changed by that the current is allowed to last longer or shorter periods of time.

The idea of the invention can only come into full effect if if the device is not exposed to any unwanted voltage fluctuations. Around to achieve that the body consisting of the changeable substance also then maintains constant voltage when the voltage source supplies fluctuating voltage, the substance is placed on a part of a resistor, the ends of which on the fluctuating Voltage with the interposition of a constant that keeps the current in this resistor Organ lie. For this purpose, an iron hydrogen resistance can be used appropriately.

This circuit also enables the voltage to be applied in a simple manner to change the substance and thus the response temperature. Resistance is provided for this purpose either with individual steps or wraps it in a known manner helically and lets slip a contact on the windings. The position of the contact can then be read off on a scale, directly in temperature degrees can be calibrated.

One embodiment is shown in the figure. In it is i a regulating resistor, 2 a contact sliding on the same, 3 a pointer, on a scale q calibrated in temperature degrees. plays, 5 a ferric hydrogen resistance, 6 the body made of the temperature-sensitive substance, a relay of any type; 8 and 9 are supply lines between which there is a fluctuating voltage.

Claims (5)

PATENT CLAIMS: i. Temperature relay, in which a substance is used as a temperature-sensitive element, which changes from a practically non-conductive state to a conductive state at certain temperatures, characterized in that the temperature-sensitive substance is connected to an adjustable voltage in order to change the transformation temperature by changing the voltage can. . 2. Relay according to claim i, characterized in that the substance to different Place a resistor connected, in which the current by known means, z. B. kept constant by an upstream hydrogen ferric resistance will. 3. Relay according to claim i and 2, characterized in that the dependency the temperature response range from the voltage regulation range by changing the Dimensions of the body of the mutable substance is adjustable. q .. relay according to claim i and 2, characterized in that the regeneration time by Changes in the current flowing through the substance after it has become conductive can be regulated is. 5. Relay according to claim i to q., Characterized in that the regeneration time by changing the duration of the substance flowing through it after it has become conductive Current is controllable.